The keratin\u2013desmosome scaffold: pivotal role of desmosomes for keratin network morphogenesis

Marcin Moch,Nicole Schwarz,Reinhard Windoffer,Rudolf E Leube

doi:10.1007/s00018-019-03198-y

Marcin Moch, Nicole Schwarz + Show 2 more

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https://doi.org/10.1007/s00018-019-03198-y

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Abstract

Desmosome-anchored keratin intermediate filaments (KFs) are essential for epithelial coherence. Yet, desmosomal KF attachment and network organization are still unexplored in vivo. We, therefore, monitored KF network morphogenesis in fluorescent keratin 8 knock-in murine embryos revealing keratin enrichment at newly formed desmosomes followed by KF formation, KF elongation and KF fusion. To examine details of this process and its coupling to desmosome formation, we studied fluorescent keratin and desmosomal protein reporter dynamics in the periphery of expanding HaCaT keratinocyte colonies. Less than 3 min after the start of desmosomal proteins clustering non-filamentous keratin enriched at these sites followed by KF formation and elongation. Subsequently, desmosome-anchored KFs merged into stable bundles generating a rim-and-spokes system consisting of subcortical KFs connecting desmosomes to each other and radial KFs connecting desmosomes to the cytoplasmic KF network. We conclude that desmosomes are organizing centers for the KF cytoskeleton with a hitherto unknown nucleation capacity.

Highlights

The desmosome-anchored keratin intermediate filament (KF) cytoskeleton is subject to and protects against mechanical stress
We investigated the assembly of the first keratin network in keratin 8-EYFP mouse embryos and studied the observed phenomena in more detail in immortalized HaCaT keratinocytes
Using previously established knock-in keratin 8-EYFP (Krt8YFP) reporter mice allows in vivo imaging of keratin network morphogenesis

Summary

Introduction

The desmosome-anchored keratin intermediate filament (KF) cytoskeleton is subject to and protects against mechanical stress. Pkps and the structurally related universal adherens junction protein plakoglobin (Pg), in turn, bind to desmosomal cadherins of the desmocollin (Dsc) and desmoglein (Dsg) type, which mediate the transcellular contact to adjacent cells bearing identical desmosomal half structures with associated KF bundles (cf [9]). Despite this well-established connectivity of the keratin–desmosome scaffold, surprisingly little is known about its formation. Disruption of desmosomes perturbs KF network organization [17, 18]

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